RU182053U1 - CYCLONE TYPE DUST CONCENTRATOR - Google Patents

Abstract

The utility model relates to dusty gas cleaning techniques and can be used in the construction, agricultural, metallurgical and chemical industries. The utility model aims to increase the efficiency of gas stream cleaning by increasing the degree of dust collection by eliminating the return of downward and axial secondary gas flows. is achieved by the fact that the cyclone-type dust concentrator includes a cylindrical housing 1, in the lower part of which there is a confuser 2. K cylinder nical body 1 attached tangential inlet 3 and outlet 4-coaxial tubes. In the proposed solution, the snail 5 of the outlet of the dust and gas concentrate is attached downward to the confuser 2, and a blind cylindrical insert 6 is concentrically installed in the lower part of the snail 5.

Description

The utility model relates to techniques for cleaning dusty gases and can be used in the construction, agricultural, metallurgical and chemical industries.

The known design of the cyclone [USSR copyright certificate for the invention No. 1639768, A1, IPC B04C 5/00. Minko V.A., Ovsyannikov Yu.G., Trishchenko S.A., Kuleshov M.I. - Publ. 04/07/1991, Bull. No. 13], comprising a cylinder-conical housing, a dust hopper with a lid and an integrated gas purification device with gas sampling and bypass channels, an exhaust pipe. A flange is installed in the cyclone at the end of the conical part of the housing. The gas purification device is made of a filter element in the form of a truncated cone, mounted on the hopper cover and flange. The gas sampling channel is made in the form of an annular gap between the flange and the wall of the hopper.

A disadvantage of the known design is the low efficiency of cleaning the gas stream, due to the presence of an axial secondary gas stream arising in the cyclone due to radial flow, as well as the return of the downward gas stream transporting the dust and gas concentrate to the hopper - these flows contribute to the uplifting and entrainment of dust deposited in the hopper.

The closest in technical essence and the achieved effect, adopted for the prototype, is a cyclone SIOT-M [Bogdanov B.C., Sharapov P.P., Fadin Yu.M., Semikopenko IA, Nesmeyanov NP, Gerasimenko VB Fundamentals of calculation of machinery and equipment of enterprises of building materials and products: a textbook. Stary Oskol: TNT, 2013. 680 p., S. 356-357], which includes a cylindrical body, in the lower part of which there is a confuser. The tangential inlet and coaxial-outlet nozzles are connected to the cylindrical body. Between the housing and the hopper, at the bottom of the confuser, a blind cylindrical insert is installed concentrically to it to artificially reduce the intensity of the axial secondary gas flow in the hopper.

The following features of the prototype coincide with the essential features of the utility model: a cylindrical body, in the lower part of which there is a confuser, tangentially connected inlet and sucked - outlet pipes are connected to the cylindrical body.

The disadvantage of the prototype is the low cleaning efficiency of the gas stream resulting from the secondary entrainment of dust deposited in the bunker, which is caused by the action of a gas stream (dust and gas concentrate) descending into the bunker, transporting dust to the bunker, where it is deposited. Subsequently, having made a 180 ° rotation, the downward gas flow enters the annular gap between the insert and the conical part of the body, which entails the uplifting of the dust deposited in the hopper and its entrainment into the cyclone body.

The objective of the utility model is to increase the efficiency of cleaning the gas stream by increasing the degree of dust collection as a result of eliminating the return of downward and axial secondary gas flows.

The task is achieved in that the cyclone-type dust concentrator includes a cylindrical body, in the lower part of which there is a confuser. To the cylindrical body are connected tangentially to the inlet and tolerably - outlet pipes. In the proposed solution, a dust-gas concentrate outlet snail is attached to the bottom of the confuser, and a blind cylindrical insert is concentrically installed in the bottom of the snail.

The applicant has not found sources of information containing the same set of essential features specified in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the criterion of "novelty."

A utility model is illustrated in the drawing, where in FIG. 1 shows a general view of a cyclone-type dust concentrator; FIG. 2 is a plan view thereof, in FIG. 3 schematically shows the movement of a downward gas stream and a secondary upward gas stream in the proposed cyclone-type dust concentrator.

The cyclone-type dust concentrator includes a cylindrical housing 1, in the lower part of which a confuser 2 is located. At the top of the cylindrical housing 1 is tangentially connected, for example by welding, the inlet pipe 3, and coaxially with the housing 1 is connected, for example by welding, the outlet pipe 4. Attached to the confuser 2, for example by welding, a snail 5 output dust and gas concentrate. In the lower part of the confuser 2 and the cochlea 5, a blind cylindrical insert 6 is installed concentrically by it, for example by welding.

The cyclone-type dust concentrator operates as follows. The gas and dust flow is fed into the inlet pipe 3 and, falling into the cylindrical body 1, acquires a spiral motion and goes down. Under the action of centrifugal forces, dust particles are concentrated near the wall of the confuser 2, and then slide downward in the form of a dust and gas concentrate and form a downward gas stream, which discharges the dust and gas concentrate to the cochle 5. Subsequently, the dust and gas concentrate is removed from cochlea 5 through a recirculation line to the source of dust generation. A blind cylindrical insert 6 mounted on the bottom of the cochlea 5 prevents the axial secondary gas flow entering the cylindrical body 1 and the upper part of the confuser 2 due to radial flow from entering the cochlea 5 of the outlet for dust and gas concentrate and the lower part of the confuser 2, which increases the degree of dust collection ( Fig. 3). The dust-free gas stream is carried out of the cylindrical body 1 through the outlet pipe 4.

Using the proposed utility model will improve the efficiency of cleaning the gas stream by increasing the degree of dust collection as a result of eliminating the return of the downward and axial secondary gas flows, as well as installing the cochlea, eliminating the need for a hopper, which will significantly reduce the metal consumption and dimensions of the dust collector.

Claims (1)

A cyclone-type dust concentrator, including a cylindrical body, in the lower part of which there is a confuser, are connected tangentially to the cylindrical body inlet and coaxially - outlet pipes, characterized in that a snug of dust and gas concentrate is attached to the bottom of the confuser, and a blind one is installed concentrically thereto cylindrical insert.

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